mapping program learning outcomes to curriculum
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MappingProgram Learning Outcomes
to Curriculum
Presentation to State Assessment MeetingJune 21, 2013
Andrew RayProgram Chair – BCT, CSET & DDT
Why does this matter?
• Institutional Effectiveness is part of Valencia’s Faculty Compensation Plan
• Assessment Plans approved Oct. 2011• Learning artifacts evaluated during
Assessment Day May 2012• Assessment methods revised and reevaluated
during Assessment Day May 2013
How are your Program Learning Outcomes?
• We got through it…
• Developed college-wide Gen. Ed. outcomes• Each program identified specific outcomes• Mapping of outcomes over curriculum
Targeted Program Learning Outcome:Existing:Work in a team environment to analyze building types, develop a list ofProgrammatic requirements, sketch a schematic solution, and use thisInformation to develop drawings and models sufficient to present acompetent architectural solution.
Proposed revision:In a work group, develop a solution to meet architectural programmatic requirements
Targeted Course(s), Co-Curricular Program or Student Activity associated with the with the Academic Program:TAR2033C
Targeted Outcome(s) within the Course(s), Co-Curricular Program or Student Activity indentified above:Prepare design development drawings and scale model(s) as part of a Final Design Project
Performance Indicators for the Program Learning Outcome(s) selected:Successful completion of Final Project in capstone course
Performance Indicators for Outcome(s) within the Course(s), Co-Curricular Program or Student Activity selected:Assessment by course-specific rubric
Assessment Method (What assessment method - written assignment, speech, test, etc. - will you use to assess student ability related to the program / course outcomes selected): Rubric for Assessing Final Design Projects
Description of the Proposed Common Assessment Method (Common assessments should be designed to ensure a balance between (1) the need for a consistency within the program in order to ensure comparable student artifacts and (2) the need for reasonable flexibility in order to protect faculty freedom to design the delivery of course content):Rubric – only one course is offered, and only on West Campus; the same two instructors (Segura & Ray) have taught this capstone course over the last 4 years
Proposed Assessment Instrument (In some cases the assessment method may not need an associated assessment instrument – e.g., multiple choice tests):Rubric for grading Final Design Projects
Program Learning Outcome AssessmentA.S. Degree – Building Construction Technology
Division of Architecture, Engineering, and Technology
Mapping Process
• List all PLO’s• List all courses• Determine which PLO’s are addressed in each
course– Where content is introduced, reinforced, assessed– Alternative: add Featured content
Program Learning Outcomes
LEGEND:∆ = Objective introduced□ = Part of course content■ = Featured course content▲ = Primary assessment; mastery of objective
Learning Outcomes Upon graduation a student will be able to:
General Education Courses
ETD1031 Intro to Const/ Drafting
MTB2321 Technical Math
ETC1251 or ARC2461 Engineering Materials
ETD1100C Engin. Drawing
ETD1320 Intro to CADD
Electives
ETD1340 Advanced CADD
TAR1120C Architectural Drawing
BCN2405 Statics and Strengths
SUR1101C Basic Surveying & Measurement
BCN1721 Const. Planning and Control
BCN2563 Bldg. Service Systems
BCT1705 Contracts, Codes & Specifications
BCT2770 Bldg. Const. Estimating
TAR2033C Architectural Design
1. Demonstrate effective written, oral and visual/graphic communication skills. ∆ ■ □ ■ ■ ■ □ ■ ■ □ ■ □ ■ ■ □ ▲
2. Solve mathematical problems and equations utilizing algebraic and trigonometric functions. ∆ □ ▲ □ ■ ■ □ □ □ □
3. Demonstrate basic drafting proficiency, including the ability to use industry-standard computer software to generate 2D and 3D drawings.
∆ ■ □ ■ ■ □ □ □ □ □ □ ▲
4. Demonstrate fundamental knowledge of the systems and processes used to construct the built environment, including an understanding of industry terminology.
∆ □ ▲ □ □ □ □ ■ □ ■ ■ ■ ■ ■ ■
5. Demonstrate basic competency in the use of surveying data collectors, calculating angles, and field book procedures, and describe their importance in construction reconnaissance.
∆ □ □ □ ▲
6. Estimate the costs for labor, materials, and equipment for a construction project using industry-standard software and procedures.
∆ □ □ ■ ▲ ■
7. Develop a schedule of activities for a construction project, determine the critical path, and identify methods of compressing the completion time.
∆ □ □ ▲ ■ ■
8. In a work group, develop a solution to meet architectural programmatic requirements ∆ ■ □ □ ■ □ ■ ■ ■ ■ ▲
A.S. Degree – Building Construction TechnologyDivision of Architecture, Engineering, and Technology
Courses
“Hands-on” Activity!
Pick ONE Program Learning Outcome and map it across the courses in your curriculum
ALTERNATE:Pick ONE Gen Ed PLO and map it across the general education curriculum
What is a good Rubric?
• Clear, concise, specific description of student performance levels; preferably ONE page
• Must address stated Learning Outcomes
• Apply your favorite acronym– KISS (Keep It Simple Stupid)– SPAM (Simple, Practical, Achievable, Measureable)
Rubric for Evaluating Final Design Project – TAR 2033C Architectural Design (BCT)Program Learning Outcomes Addressed and Project Criteria
Levels of AchievementBeginning
1Developing
2Competent
3Accomplished
4
Existing Building AnalysisVisit and document several buildings of a specific type/occupancy
Analysis & documentation incomplete; demonstrates minimal understanding of building type
Examined few buildings;analysis conclusions vague; design issues missing key points and not distinctly applied
Examined several buildings; conducted building analysis; discovered most design issues; applied knowledge gained from study
Examined many buildings; analysis thorough & complete; clearly articulates design issues; substantial and relevant application of knowledge gained
Client Building RequirementsProgram with list of space requirements and functional relationships
Incomplete solution, lacking in quality, fails to meet project requirements
Program lacking depth;Missing minor components and fails to adequately describe spaces and relationships
Developed program meeting stated objectives; space requirements and functional relationships are adequately addressed
Developed complete program exceeding minimum objectives; clearly articulates space requirements and functional relationships
Schematic Design: Quality of solution & application of architectural design principles.
Incomplete or missing required elements; solution lacks originality; ignores basic design principles
Solution shows evolving understanding of design principles, but does not achieve effective solution
Fulfills all program parameters; competent design
Exceeds program parameters; creative solution demonstrates unique design approach and understanding of design principles
Presentation: Demonstrate effective written, oral and graphic communication skills.
Unconvincing argument, not supported by fact, exhibits poor communication skills; graphics incomplete/poorly executed
Argument only somewhat effective/supported; less than professional communication standards; graphics detract from argument
Good argument, mostly supported , adequately communicated; graphics are competent
Convincing argument, properly supported , using professional communication standards; graphics enhance description of design solution
Industry Knowledge:Demonstrate fundamental knowledge of the systems and processes used to construct the built environment, and use correct terminology
Inarticulate and lacking in understanding of key building components; incorrect use of terminology
Shows some understanding of construction, but hesitant and unable to answer all questions
Clear and concise; well-defined; able to answer all questions
Project description conveys deep understanding of building process using appropriate vocabulary; articulate
Quality of Drawings/Models: Demonstrate basic drafting proficiency, including the ability to use industry-standard computer software to generate 2D and 3D drawings
Drawings incomplete or missing required views; model lacks detail sufficient to describe project
Drawings and model contain minor errors and lack precision in one or more areas
Drawings and model are accurate and adequately convey the design intent
Drawings are skillfully done and use proper lineweights to show detailed solution; model is precise and well-crafted
TeamworkContribution to group effort: “In a work group, develop a solution to meet architectural programmatic requirements.”
Failed to attend scheduled group meetings; uncooperative; participation level much lower than group members
Attended most meetings and contributed in some ways, but effort below expected performance
Organized and met expected contribution level
Contributed greatly to the success and unity of the team; demonstrated leadership in true collaborative effort
QUESTIONS?
F I N
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